On-site observation of high temperatures up to 1500°C with your microscope [IR-TPS].
It is a compactly designed high-temperature heating observation device. It can be used on your microscope or micro-scope.
The IR-TPS is a high-temperature stage for microscopes that has been developed to achieve the contradictory goals of "high functionality and low cost." In addition to the standard configuration, advanced system equipment can be built with high-quality options. It can be used for research such as material analysis and quality control under precise temperature control in air, inert gas, or vacuum environments. 【Features】 ○ Uniform high-temperature heating of the sample at a speed of up to 1500°C within 60 seconds using infrared concentration ○ Energy-saving clean heating ○ Easy maintenance For more details, please contact us or refer to the catalog.
basic information
【Specifications】 ○ Temperature range: +50 to 1500℃ ○ Heating characteristics: 60 seconds from room temperature to 1500℃ ○ Heating method: Infrared emission and reflection concentration heating ○ Cooling method: Natural air cooling ○ Atmosphere: In air, gas flow, or vacuum ○ Achievable vacuum level: Approximately 5Pa ○ Sample container: Outer diameter φ5×4mm, φ6.5×4mm ○ Safety measures: Furnace body temperature sensor ○ Temperature control: Digital program PID-SCR control ○ Temperature program: 16 segments, 16 patterns ○ Temperature sensor: JIS R type thermocouple ○ Power consumption: 500W/100V ● For more details, please contact us or refer to the catalog.
Price information
Please contact us.
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Model number/Brand name
IR-TPS
Applications/Examples of results
【Applications】 For precise temperature control in atmospheres of air, inert gas, or vacuum. ○ Observation of melting and solidification of metals such as solder, aluminum alloys, and steel. ○ Observation of surface changes in metals due to phase transformation. ○ Observation of softening and hardening of amorphous materials such as glass. ○ Observation of heat resistance and modification of resins such as epoxy. ○ Observation of heat resistance, modification, and crack propagation in composite materials. These can be utilized for research and quality control, among other purposes. ● For more details, please contact us or refer to the catalog.
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News about this product(11)
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\Weight change and thermal change can be understood/On-site observation of internal structural changes《OCT-equipped heating observation imaging furnace》
The "OCT-equipped Heating Observation Furnace" is a compact design that utilizes a focused heating method and is an internal observation device equipped with OCT (Optical Coherence Tomography). Using this device, a research group from Yokohama National University and the Kanagawa Institute of Industrial Science and Technology successfully observed the internal structural changes of ceramics during sintering at high temperatures for the first time in the world. Please utilize it for research and development of materials such as ceramics and resins. For more details, please refer to the catalog. If you have any questions or inquiries, please feel free to contact us.
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Experience high-temperature measurements up to 1800℃ and experiments under controlled atmospheric conditions! We invite you to try high-temperature observations using the demo unit of the IR series, which represents Yonezawa Manufacturing, featuring heating, atmospheric control, and oxidation experiments.
- Metals / Filler materials / Ceramics / Solder / Glass, etc. - This measurement allows you to experience high-temperature observation using a demonstration unit of the "IR Series" concentrated heating furnace, which represents the test equipment manufacturer, Yokokura Seisakusho. Due to its sealed structure, the IR Series furnace can achieve a maximum temperature of 1800°C under an atmosphere-controlled environment, as in the case of the IR-18SP. You can capture real-time changes in the test subject by checking videos of actual experiments and the test program. *Please note that the equipment used is a demonstration unit, and we may not be able to accommodate requests depending on the circumstances, so please contact us for details. *There may be variations depending on the thermal capacity of the test specimen. ▼ Features of the IR Series ▼ The rapid heating performance and superior temperature control, along with information from the observation port, significantly shorten heating experiment times and facilitate the screening of optimal heating conditions, contributing to improved efficiency in material development tasks.
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"OCT-equipped heating observation imaging furnace" contributes to global research! Direct observation of internal structural changes at high temperatures.
The "OCT-equipped heating observation imaging furnace" is a compact design that utilizes a focused heating method and is equipped with OCT (Optical Coherence Tomography), serving as an internal observation device. Using this device, a research group from Yokohama National University and the Kanagawa Institute of Industrial Science and Technology successfully observed the internal structural changes of ceramics during sintering at high temperatures for the first time in the world. For more details, please refer to the catalog. If you have any questions or inquiries, please feel free to contact us.
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"IR Series High-Temperature Furnace Brochure Now Available" Maximum 1800℃ / High-speed Heating and Cooling / Temperature Control Performance [with Observation Video] Suitable not only for observation during heating but also as a heating furnace.
The concentrated heating furnace "IR Series" is used in various research facilities around the world and is flexible in accommodating customizations. ▼ Features of the IR Series ▼ The rapid heating performance and superior temperature control, along with information from the observation port, significantly shorten heating experiment times and facilitate the screening of optimal heating conditions, contributing to improved efficiency in material development tasks. ▮ Rapid Heating and Cooling & Temperature Control Performance With a heating rate of approximately 50°C/sec using concentrated heating, rapid cooling is possible with the heating lamp turned off. The temperature control performance achieves a temperature control accuracy of ±1°C through high-speed PID control of the heating lamp volume in relation to the temperature program. ▮ Compatibility with Various Atmospheres All furnaces adopt a vacuum chamber structure and allow for gas replacement. They are compatible with heating under high vacuum, inert gas, reducing atmospheres, and humidified dew point control atmospheres via bubbling. ▮ Easy Experimentation and Observation The compact and energy-efficient design does not require a specific installation location. Due to the fast heating rate, there is no need to preheat the furnace, allowing experiments to be conducted whenever desired. ▼ Other Detailed Features ▼ - Real-time observation during heating - Clean Please check the related links for observation videos and examples of observation screen transitions!
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≪IR Series High-Temperature Furnace Brochure Now Available≫ Maximum 1800℃ / High-Speed Temperature Rise / Temperature Control Performance [With Observation Video] Suitable not only for observation during heating but also as a heating furnace.
The concentrated heating furnace "IR Series" is used in various research facilities around the world and is flexible in customization. ▼ Features of the IR Series ▼ The rapid heating performance and temperature control superiority, along with information from the observation port, significantly shorten heating experiment times and facilitate the screening of optimal heating conditions, contributing to improved efficiency in material development tasks. ▮ Rapid Heating and Cooling & Temperature Control Performance With a heating rate of approximately 50°C/sec using concentrated heating, rapid cooling is possible with the heating lamp turned off. The temperature control performance achieves a temperature control accuracy of ±1°C through high-speed PID control of the heating lamp volume in response to temperature programs. ▮ Compatibility with Various Atmospheres All furnaces adopt a vacuum chamber structure and allow for gas replacement. They can accommodate heating under high vacuum, inert gas, reducing atmospheres, and humidity control atmospheres through bubbling. ▮ Easy Experimentation and Observation Compact and energy-efficient, it does not require a specific installation location. Due to the fast heating rate, there is no need to preheat the furnace, allowing experiments to be conducted whenever desired. ▼ Other Detailed Features ▼ - Real-time observation during heating - Clean Please check the related links for observation videos and examples of observation screen transitions!
